2021
DOI: 10.3389/fbioe.2021.653509
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3D Silk Fiber Construct Embedded Dual-Layer PEG Hydrogel for Articular Cartilage Repair – In vitro Assessment

Abstract: Since articular cartilage does not regenerate itself, researches are underway to heal damaged articular cartilage by applying biomaterials such as a hydrogel. In this study, we have constructed a dual-layer composite hydrogel mimicking the layered structure of articular cartilage. The top layer consists of a high-density PEG hydrogel prepared with 8-arm PEG and PEG diacrylate using thiol-norbornene photo-click chemistry. The compressive modulus of the top layer was 700.1 kPa. The bottom layer consists of a low… Show more

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Cited by 13 publications
(14 citation statements)
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“…But due to a shortage of donors, transplant organs are in short supply. The risk of infection Several pore dimensions and different morphology [122,123] and tumor expansion with the obligation of long-term immune-suppression administration factors are also slender the transplantation surgery. Correspondingly, surgical rejuvenation has a significant impediment like alimentation of the donor site and insufficient availability of donor tissue.…”
Section: Tissue Engineeringmentioning
confidence: 99%
“…But due to a shortage of donors, transplant organs are in short supply. The risk of infection Several pore dimensions and different morphology [122,123] and tumor expansion with the obligation of long-term immune-suppression administration factors are also slender the transplantation surgery. Correspondingly, surgical rejuvenation has a significant impediment like alimentation of the donor site and insufficient availability of donor tissue.…”
Section: Tissue Engineeringmentioning
confidence: 99%
“…This adhesion was attributed to the high polarity of the zwitterionic polymer in hydrogel (Asha et al, 2021;Yu and Wu, 2021). Both charged groups (cationic quaternary ammonium and anionic sulfonate) and polar groups (S=O) tend to interact with other charged or polar groups on the surface of most substrates via ion dipole and/ or dipole-dipole interactions, resulting in a strong interfacial bonding (Kim et al, 2021). This inherent adhesive property enabled the ADN hydrogels to be applied in human-computer interaction, soft robotics and other fields in a fitting manner.…”
Section: Mechanical Properties Of the Hydrogelsmentioning
confidence: 99%
“…The main application directions of PEG are involved in the synthesis of hydrogels and for 3D bioprinting [ 119 ]. The hydrogel scaffold composed with the involvement of polyethylene glycol can promote the cell viability of cartilage stem cells and contribute to the attachment and growth of new cells and the generation of ECM [ 120 ]. When polyethylene glycol and filamentous protein are configured together as inks for 3D bioprinting, the printed synthetic cartilage scaffolds will promote differentiation of MSCs and secretion of ECM, and have phase change properties to facilitate implantation into damaged areas [ 121 ].…”
Section: Application and Advantages Of Organic Nanomaterials In Carti...mentioning
confidence: 99%